CN104141597A - Wind-solar-electricity compensatory pneumatic hydraulic walking beam type water lifting system and water lift - Google Patents

Abstract

The invention provides a wind-solar-electricity compensatory pneumatic hydraulic walking beam type water lifting system and water lift, and belongs to the technical field of water pumping. The pneumatic hydraulic walking beam type water lift comprises a walking beam, a gas-liquid power device and a first piston pump. The first end of the walking beam is provided with a first horse head. The gas-liquid power device comprises a gas storage container, a pipeline, a first container arranged at the first end of the pipeline and a second container arranged at the second end of the pipeline. The first container and the second container are communicated through pipeline liquid and connected with the gas storage container through a first electromagnetic directional valve and a second electromagnetic directional valve respectively. The first horse head is connected with the first piston pump through a steel wire. The structure of the pneumatic hydraulic walking beam type water lift is greatly simplified. In addition, compared with an oil well pump or a submerged pump and a centrifugal pump, the piston water pump is simpler in structure, free of electric power and corrosion prevention, more durable in use, and capable of saving more energy.

Description

Wind-light-electricity complementary pneumatic fluid power slide beam water pumping system and water elevator

Technical field

Wind-light-electricity complementary pneumatic fluid power slide beam water pumping system and a water elevator, belong to pump water technical field.

Background technique

Traditional draw water or pumping unit is the object that electricity consumption or internal combustion engine drive oil well pump or submersible pump or centrifugal pump reach water lift oil pumping, expends the energy, not energy-conservation, device maintenance rate is high.

For overcoming traditional suction engine or pumping unit consume electric power, not energy-conservation shortcoming, inventor Liu Dian army in December, 2011 19Xiang China national Department of Intellectual Property submitted the Chinese invention patent application that application number is 201110424372.3 to, as shown in Figure 4, this application for a patent for invention provides a kind of Pneumatic oilfield pumping unit system, it comprises many pneumatic oil pumps, every Pneumatic oilfield pumping unit comprises base 101, be arranged on the support on base, bearing support 103 is installed on support, walking beam 104 is arranged on bearing support 103, horse head 105 is arranged on walking beam 104 one end, rope hanger 106 is arranged on horse head 105, walking beam 104 two ends are separately installed with fairshaped cavity 107, the pipeline that connects two cavitys 107 is installed in walking beam 104, pipeline is communicated with into a Seal cage with cavity 107, in Seal cage, be full of flowing material, in each cavity 7, air bag is installed, air bag is provided with gas-entered passageway and outlet passageway, gas-entered passageway is connected with reversing slide valve 8 with outlet passageway, the suction port of reversing slide valve 8 is connected with source of the gas, being used for the air inlet of the air bag in the cavity of pilot line both sides and two reversing slide valves of giving vent to anger is arranged on respectively pipeline by the both sides of paracentral position, reversing slide valve is the stroke slide valve that cam is controlled, its Stroke Control end is positioned at the outside of cam, it is characterized in that, 109, two arc-shaped cams 109 of two arc-shaped cams are also installed on support 102 to be arranged on respectively and to take 225 ° and 315 ° of positions on the circumference that bearing support 103 is the center of circle, during work, source of compressed air accesses respectively the suction port of two reversing slide valves of the 1st Pneumatic oilfield pumping unit by tee union house steward, the arc-shaped cam that wherein reversing slide valve in 315 ° of positions is installed in 315 ° of positions in frame is opened, reversing slide valve action, gas-entered passageway is opened, outlet passageway is closed, pressurized air is filled with in the air bag in the cavity in 315 ° of positions, air bag expands, flowing material is extruded in the cavity in 135 ° of positions, meanwhile, the reversing slide valve of 135 ° of positions is in normally open, gas-entered passageway is closed, outlet passageway is opened, by corresponding pipeline, be recycled in the air bag in the cavity of 315 ° of positions in the 2nd Pneumatic oilfield pumping unit, after the 2nd Pneumatic oilfield pumping unit acting, be recycled to the 3rd Pneumatic oilfield pumping unit, by that analogy, circulation downwards.

But the shortcoming of this application for a patent for invention is to be provided with air bag in the cleanliness cavity at walking beam two ends, and for power is provided, need to utilize pressurized air ceaselessly to airbag aeration, and need to ceaselessly the pressurized air in air bag be discharged, air bag is after repeatedly expanding and shrinking, elastic force reduces, the lost of life.

Summary of the invention

For overcoming the shortcoming existing in prior art, it is simpler that goal of the invention of the present invention is to provide a kind of structure, pneumatic fluid power slide beam water elevator and the pneumatic fluid power slide beam of wind-light-electricity complementary water pumping system that structure is more prone to.

For realizing described goal of the invention, the invention provides a kind of pneumatic fluid power slide beam water elevator, comprise walking beam, air-or liquid-operated power apparatus and first piston pump, wherein, the first end of walking beam is provided with the first horse head, and air-or liquid-operated power apparatus comprises pipeline, is arranged on the first container of pipeline first end and the second container that is arranged on pipeline the second end, wherein, the first container and second container pass through pipeline fluid connection, and by the first solenoid directional control valve, are connected with source of compressed air with the second solenoid directional control valve respectively; The first horse head is connected with first piston pump by steel wire.

For realizing described goal of the invention, the present invention also provides a kind of pneumatic fluid power slide beam water elevator, it comprises: walking beam, air-or liquid-operated power apparatus and first piston pump, wherein, the first end of walking beam is provided with the first horse head, air-or liquid-operated power apparatus comprises 2 pipelines, 2 the first containers and 2 second containers, and 2 first containers and 2 second containers are respectively by a pipeline fluid connection; The first horse head is connected with first piston pump by steel wire; First first container is connected with source of compressed air by solenoid directional control valve respectively with second second container; Second the first container is connected by two selector valves with first second container.

Preferably, pneumatic fluid power slide beam water elevator also comprises the second reciprocating pump, and the second end of walking beam is also provided with the second horse head, and the second horse head is connected with the second reciprocating pump by steel wire.

Preferably, reciprocating pump comprises the pump housing, piston and pull bar, and wherein, piston is placed in the pump housing, and the central authorities of piston are connected with pull bar, and pull bar is for being connected with steel wire.

Preferably, steel wire is connected by pulley reciprocating pump.

For realizing described goal of the invention, the present invention also provides the pneumatic fluid power slide beam of a kind of wind-light-electricity complementary water pumping system, it comprises gas making device and Pneumatic Liquid power slide beam water elevator, wherein, gas making device can be produced pressurized air by wind energy, solar energy and/or electricity, and pressurized air is offered to pneumatic fluid power slide beam water elevator, described hydrodynamic power slide beam water elevator is above-mentioned arbitrary water elevator.

Preferably, the pneumatic fluid power slide beam of wind-light-electricity complementary water pumping system, also comprises pneumatic hydraulic potential electricity generating device, and described pneumatic hydraulic potential electricity generating device also utilizes pressurized air to generate electricity

Compared with prior art, be arranged in the container at walking beam two ends air bag is not set in the present invention, only utilize the liquid in compressed air-driven container, thereby utilize the Gravity changer of two liquid in container that power is provided, constructions cost reduces greatly.In addition, piston pump provided by the invention and oil well pump or submersible pump or centrifugal pump are compared, and construct simplyr, and do not need electric power, do not need anticorrosion, more durable, more energy-conservation.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of wind light mutual complementing provided by the invention gas system processed;

Fig. 2 is the schematic diagram of pneumatic hydraulic potential power generation system provided by the invention;

Fig. 3 is the schematic diagram of pneumatic fluid power walking beam water pumping system provided by the invention;

Fig. 4 is the schematic diagram of the Pneumatic oilfield pumping unit system that provides in prior art.

Embodiment

Below in conjunction with accompanying drawing, describe the present invention in detail.

Fig. 1 is the schematic diagram of wind light mutual complementing provided by the invention gas system processed.As shown in Figure 1, wind light mutual complementing provided by the invention gas system processed comprises: photovoltaic gas making device, wind energy gas making device and/or low tension gas making device and air container, wherein, photovoltaic gas making device comprises solar panel 1 and air compressor 2, described solar panel 1 is that electric energy is to drive air compressor 2 by transform light energy, air compressor 2 compresses atmospheric air, through one-way valve 3, by gas circuit, stores in air container, and described air container is gas storage well 5 or gas holder 6.Wind energy gas making device comprises support 8, wind energy conversion system 7 and wind-force air compressor, wind energy conversion system is arranged on support 8, wind energy conversion system is for being converted to wind energy maneuver energy to drive wind-force air compressor, wind-force air compressor compresses atmospheric air, through one-way valve 17, by gas circuit, stores in air container.Low tension gas making device comprises electric power air compressor 15, and it is connected in electrical network 9 through A.C. contactor 12 by cable 10; Electric power air compressor 15 compresses atmospheric air, through one-way valve 16, by gas circuit, stores in air container.Air container, by one-way valve 19, outwards provides pressurized air through tracheae 20.

Wind light mutual complementing provided by the invention gas system processed also comprises control PLC controller 14, in air container, be provided with pressure transducer 18, pressure transducer 18 is for surveying the air pressure of air container, and air pressure signal is converted to electrical signal then sends PLC controller 14 to.The output terminal of photovoltaic battery panel is provided with current/voltage detector (not shown), and it is for surveying electric current and the voltage of photovoltaic battery panel output; And send this current and voltage signals to photovoltaic cell controller (not shown).Wind energy gas making device also comprises wind direction and air velocity transducer (not shown), with by the wind speed and direction of detection system environment of living in, and wind speed and direction signal is converted to electrical signal then sends wind energy conversion system controller to.When the blast in pressure transducer detects air container is less than setting value, PLC controller is first given photovoltaic cell controller, wind energy conversion system is controlled provides instruction, if the power of the bright photovoltaic cell output of the signal list of photovoltaic cell controller feedback is lower than setting value, to wind energy conversion system, control instruction is provided, if the signal of wind energy conversion system controller feedback shows that wind speed is less than setting value, to A.C. contactor, provide instruction, A.C. contactor is connected electric power air compressor and electrical network, atmospheric air is compressed so that the pressure in air container reaches setting value.In addition, electrical network is returned PLC controller, photovoltaic cell controller and wind energy conversion system controller through transformer electric energy is provided, and to maintain them, normally works.

Fig. 2 is the schematic diagram of pneumatic hydraulic potential power generation system provided by the invention.As shown in Figure 2, the overall structure of pneumatic hydraulic potential power generation system is by air sac type water pump 25, hydraulic turbine generator 33 with for holding the container 49 of water, wherein air sac type water pump 25 comprises water storage tank and air bag, hydraulic turbine generator 33 comprises the first impeller 34, the second impeller 39, hold the spiral case 41 of the first impeller and hold the spiral case 40 of the second impeller, and air bag is connected with source of compressed air by solenoid directional control valve 22; Water storage tank is connected with the water intake that holds the spiral case 40 of the second impeller 39 with the water outlet that holds the spiral case 41 of the first impeller 34 respectively; Container 49 is connected with the water outlet that holds the spiral case 40 of the second impeller 39 with the water intake that holds the spiral case 41 of the first impeller 34 respectively.In the time of pneumatic hydraulic potential operation of electric power system, PLC38 control system is according to the program writing, by controlling cable 37, control solenoid directional control valve 22 unlatchings, by controlling cable 36, open upper water mortor operated valve 35 again, the pressurized air of gas holder 6 the inside 0.8 MPas is linked into air bag water pump 25 the insides through one-way valve 19, total inlet pipe 20 by solenoid directional control valve 22.The pressurized air of 0.8 MPa is filled in the air bag of the 1st receptacle, air bag expands, the water of the first receptacle is passed through total outlet pipe 26 water inlets 27 by air sac pressing, the upper water mortor operated valve 35 of having opened impacts the second impeller 39 of spiral case 40 the insides, the second impeller 39 drives the rotating of wheel of hydraulic turbine generator 33, then sends electric energy; Then by upper water one-way valve 44, enter and be positioned at the 60 meters of container exceeding 49 the insides; When the water of air bag water pump 25 the insides is all extruded to container 49 the inside, solenoid directional control valve 22 commutations, upper water mortor operated valve 35 cuts out, PLC38 opens lower water mortor operated valve 42 by controlling cable 45, water will impact the first impeller 34 of spiral case 41 the insides, the first impeller 34 drives the rotating of wheel of hydraulic turbine generator 33, then sends electric energy; Then by drainage pipeline 43, lower water one-way valve 28, flow back into air bag water pump 25 the insides, because container 49 is higher than 60 meters of air pocket pumps, so the water of container 49 the insides just can pressurised airbag the pressurized air of the inside to 0.6 MPa, and then by the bleeder port of solenoid directional control valve 22, through outgassing nonreturn valve 23, be filled into gas holder 29 the insides, and then through one-way valve 30 steam outlet pipes 31, supply with pneumatic fluid power walking beam water pumping system and carry out water lift operation.And then repeating above-mentioned process, hydraulic turbine generator 33 just can send electricity endlessly to be come.Flywheel 32 on hydraulic turbine generator is energy storage speed stabilizings, solar panel 48 accumulators 47 chargings, and storage battery 47 is given the power supply of PLC38 control system.

Fig. 3 is the schematic diagram of pneumatic fluid power walking beam water pumping system provided by the invention.As shown in Figure 3, pneumatic fluid power walking beam water pumping system comprises support 100, walking beam 83, air-or liquid-operated power apparatus and first piston pump and the second reciprocating pump, wherein, the core of walking beam 83 is designed with main shaft, main shaft both sides are fixedly mounted on the platform on support 100 tops with bearing liner seat 86 respectively, two design and installation of walking beam 83 has the horse head 82 and 87 of same equal-specification, equivalent weight, is all designed with to hang to draw wire rope 91 and 99 on horse head.Air-or liquid-operated power apparatus comprises that 2 settings are arranged on the pipeline 80 and 81 of the both sides of walking beam 83, is vertically set on container 79 and the container 90 at pipeline 80 two with flange plate; With flange plate, be vertically set on container 78 and the container 89 at pipeline 81 two; Container 79 upper design have air inlet/outlet, and air inlet/outlet is connected with the inflation inlet of three two electric change valves 63 by air inlet pipeline 77; Container 78 upper design have air inlet/outlet, and air inlet/outlet is connected with the inflation inlet of three two electric change valves 64 by air inlet pipeline 75; Container 90 upper design have air inlet/outlet, and air inlet/outlet is connected with the inflation inlet of three two electric change valves 65 by air inlet pipeline 73; Container 89 upper design have air inlet/outlet, and air inlet/outlet is connected with the inflation inlet of three two electric change valves 66 by air inlet pipeline 71; The suction port of three two electric change valves 63 with by pipeline 31, be connected with source of the gas, relief opening is successively by the road 59, one-way valve 58, pipeline 56 be connected with air container 55.The suction port of three two electric change valves 64 is connected with the relief opening of three two electric change valves 65 by pipeline 61, and relief opening is connected with the suction port of three two electric change valves 65 by pipeline 62.The suction port of three two electric change valves 65 is connected with the relief opening of three two electric change valves 64 by pipeline 62, and relief opening is connected with the suction port of three two electric change valves 64 by pipeline 61.The suction port of three two electric change valves 66 is connected with source of the gas by pipeline 31, and relief opening successively by the road 60, one-way valve 58 passes through pipeline 56, pipeline 56 is connected with air container 55.Air container 55 is connected in suction booster 67, and suction booster 67 continues air container 55 overbottom pressure gases supercharging and stores in gas holder 29 by pipeline 69.Four containers 78,79,89 and 90 are cylindrical shape, can be also other shape, and their volume, weight and shape are identical.

Support 100 both sides, top are provided with pneumatic spring 96 and 92, are used for realizing energy storage and the buffering of the potential energy of walking beam 83 descending time.The platform on support 100 tops local both sides are more on the lower separately installed with induction switch 88 and 95, being used for the position of uplink and downlink of perception walking beam 83 outputs signal to PLC50, then PLC50 controls respectively the opening and closing of solenoid directional control valve by control wiring, make container inflation or venting, pneumatic fluid power walking beam type water pump operation is drawn water.

The air of pneumatic spring 92 and 96 the insides, can be compressed respectively when each walking beam is descending, wherein the pneumatic spring 92 compressed pressurized air in the inside can import pipeline 101 by pipeline 93 and one-way valve 94, wherein the pneumatic spring 96 compressed pressurized air in the inside can also import pipeline 101 by pipeline 97 and one-way valve 98, and then by main pipe rail 69, be also filled in the middle of gas holder 29 object recycling to reach pressurized air.Two piston pumps 104 and 111 have two kinds of mounting types, the first can at right angle setting in the well of the below of horse head 82 and 87 or there is the place of water in river, river, lake etc., if the position of the distance of well head and two horse head 82 and 87 is not corresponding, just can select the second mounting type, with pulley, change the distance of well head, be applicable to the operation of two horse heads.

The top of piston pump 104 is containers 103 of dress water, bottom is the cylinder type pump housing 104, pump housing the inside design and installation has piston 106, piston 106 upper design have one-way valve 105, piston 106 use shadoof 102 tractions, the pump housing 104 bottoms are provided with water feeding one-way valve 107, the structure of piston pump 111 and 104 is the same, top is the container 109 of dress water, bottom is the cylinder type pump housing 111, pump housing the inside design and installation has piston 113, piston 113 upper design have one-way valve 112, piston 113 use shadoof 109 tractions, the pump housing 111 bottoms are provided with water feeding one-way valve 114.

The working procedure of pneumatic fluid power walking beam water pumping system is as follows:

Be full of water or other liquid first to container 89,90 and pipeline 81,80, now the container 78,79 on the both sides of walking beam water elevator does not have water, 89, there is water 90 the insides, center of gravity inversion, container 89,90 gravity due to water drive walking beam 83 deflections, and horse head 87 is descending, now reciprocating pump 111 in entering water in, because buoyancy of water makes water feeding one-way valve 114, open, water enters the pump housing.When horse head 87 is descending, the piston 113 of reciprocating pump 111 the insides is because the deadweight of shadoof 109 is along the pump housing toward lower slider, and the water feeding one-way valve 114 of pump housing bottom is closed, and the one-way valve 112 on piston top is because the impulse force of water is opened, and water enters into piston 113 tops.Start water elevator, the pressurized air of gas holder 29 the insides is linked into the air inlet port of solenoid directional control valve 63 and solenoid directional control valve 66 by one-way valve 30 and tracheae 31, when walking beam 83 drives horse heads 87 descending near induction switch 88 time, induction switch 88 outputs signal to PLC50 by controlling cable 85, PLC50 gives three two way selected valves 63, three two way selected valves 64, three two way selected valves 65 and three two way selected valves 66 provide signal, suction port and the inflation inlet of three two way selected valves 66 are connected, suction port and the inflation inlet of three two way selected valves 65 are connected, relief opening and the inflation inlet of three two way selected valves 63 are connected, relief opening and the inflation inlet of three two way selected valves 64 are connected, pressurized air is filled into container 89 the insides by pipeline 71, the water of container 89 the insides is expressed to container 78 the insides of opposite up direction by moment by pipeline 81, the air of container 78 the insides is pressurizeed by water simultaneously, then successively by pipeline 75, by solenoid directional control valve 64, the air inlet port of pipeline 62 access solenoid directional control valves 65, and then be filled with container 90 the insides through pipeline 73, the water of container 90 the insides is expressed to container 79 the insides of opposite up direction by moment by pipeline 80, the air of container 79 the insides is pushed successively by pipeline 77 by water simultaneously, selector valve 63, pipeline 59, outgassing nonreturn valve 57, total steam outlet pipe 56 is filled into and reclaims gas holder 55 the insides, now container 89, the water of 90 the insides has all been extruded to the container 78 on opposite, 79 the insides, center of gravity inversion, walking beam 83 drives horse head 82 descending from eminence, horse head 87 becomes up, being fixed on wire rope 91 on horse head just can draw shadoof 109 and pull piston 113 up in water extraction, in the time of water lift, bottom water feeding one-way valve 114 is opened, water enters the pump housing again, for next water lift ready.When horse head 82 is descending, now reciprocating pump 104 in entering water in, because buoyancy of water makes water feeding one-way valve 107, open, water enters the pump housing.The piston 106 of reciprocating pump 104 the insides is because the deadweight of shadoof 102 is along the pump housing 104 toward lower slider, and the water feeding one-way valve 107 of pump housing bottom is closed, and the one-way valve 105 on piston 106 tops is because the impulse force of water is opened, and water enters into piston 106 tops.When walking beam 83 descending near induction switch 95 time, induction switch 95 outputs signal to PLC50 by controlling cable 84, PLC50 gives three two way selected valves 63, three two way selected valves 64, three two way selected valves 65 and three two way selected valves 66 provide signal, relief opening and the inflation inlet of three two way selected valves 66 are connected, relief opening and the inflation inlet of three two way selected valves 65 are connected, suction port and the inflation inlet of three two way selected valves 63 are connected, suction port and the inflation inlet of three two way selected valves 64 are connected, pressurized air is filled into container 79 the insides by air inlet pipeline 77, the water of container 79 the insides is expressed to container 90 the insides of opposite up direction by moment by pipeline 80, the air of container 90 the insides is pressurizeed by water simultaneously, then successively by pipe 73, the air inlet port of solenoid directional control valve 65 pipeline 61 access solenoid directional control valves 64, and then be filled with container 78 the insides through pipeline 75, the water of container 81 the insides is expressed to container 89 the insides of opposite up direction by moment by pipeline 81, the air of container 89 the insides is pressed through pipe 71 by water simultaneously, solenoid directional control valve 66, pipeline 60, outgassing nonreturn valve 58, total steam outlet pipe 56 is filled into and reclaims gas holder 55 the insides, reclaim gas holder 55 the insides with the pressurized air of overbottom pressure, by steam outlet pipe, access supercharging air machine 67 the insides, after supercharging, by one-way valve 68 and tracheae 69, be filled into high pressure tank 29 the insides.Now the water of container 79,78 the insides has all been extruded to container 90,89 the insides on opposite, center of gravity inversion, walking beam 83 drives horse head 87 descending from eminence, horse head 82 becomes up, being fixed on wire rope 99 on horse head 82 just can draw shadoof 102 and pull piston 106 up in water extraction, in the time of water lift, bottom water feeding one-way valve 107 is opened, and water enters the pump housing 104 again, for next water lift ready.Go round and begin again, two horse head water elevators just can be by the pressurized air that is filled with in a steady stream constantly in water extraction, and energy-efficient like this.

Although the air-or liquid-operated power apparatus of pneumatic fluid power slide beam water pumping system provided by the invention be take and had two pipelines and four containers and be illustrated as example, the present invention also can be to have a pipeline and two containers are realized, the second container that air-or liquid-operated power apparatus comprises pipeline, be arranged on the first container of pipeline first end and the first horse head and be arranged on pipeline the second end, wherein, the first container and second container pass through pipeline fluid connection, and by the first solenoid directional control valve, are connected with source of high pressure air with the second solenoid directional control valve respectively; The first horse head is connected with first piston pump by steel wire.

In addition, also can only make a horse head by driving a piston pump to intake, and another horse head replace with weight.

This wind provided by the invention, the two horse head water elevators of the pneumatic fluid power slide beam of optical, electrical complementation also can be used as oil field and put forward oil machine use.The complementary pneumatic fluid power slide beam water elevator of this wind, light is installed in some remote oil fields just not to be needed to have set up electrical network, only wind-force gas system processed need to be installed in oil field and solar energy gas system processed is produced pressurized air, then use gas holder, some not fuel-displaced abandoned wells of leaving over during with probing oil well, as gas storage well storing compressed air, just can form a pressurized air supply station, the pneumatic fluid power slide beam of giving that just can be stable is carried oil machine supply pressurized air, reaches and puies forward oily object.

More than be described with reference to the accompanying drawings working principle of the present invention, but embodiment is only, for demonstrating, the present invention is described.Specification is only for explaining claims.But protection scope of the present invention is not limited to specification.In the technical scope that any those skilled in the art of being familiar with disclose in the present invention, the variation that can expect easily or replacement, within all should being encompassed in protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of claims.

Claims (10)

1. a pneumatic fluid power slide beam water elevator, it is characterized in that, comprise walking beam, air-or liquid-operated power apparatus and first piston pump, wherein, the first end of walking beam is provided with the first horse head, and air-or liquid-operated power apparatus comprises pipeline, is arranged on the first container of pipeline first end and the second container that is arranged on pipeline the second end, wherein, the first container and second container pass through pipeline fluid connection, and by the first solenoid directional control valve, are connected with source of compressed air with the second solenoid directional control valve respectively; The first horse head is connected with first piston pump by steel wire.

2. pneumatic fluid power slide beam water elevator according to claim 1, is characterized in that, also comprise the second reciprocating pump, the second end of walking beam is also provided with the second horse head, and the second horse head is connected with the second reciprocating pump by steel wire.

3. pneumatic fluid power slide beam water elevator according to claim 2, is characterized in that, reciprocating pump comprises the pump housing, piston and pull bar, and wherein, piston is placed in the pump housing, and the central authorities of piston are connected with pull bar, and pull bar is for being connected with steel wire.

4. according to the arbitrary described pneumatic fluid power slide beam water elevator of claim 1-3, it is characterized in that, steel wire is connected by pulley reciprocating pump.

5. a pneumatic fluid power slide beam water elevator, it is characterized in that, comprise: walking beam, air-or liquid-operated power apparatus and first piston pump, wherein, the first end of walking beam is provided with the first horse head, air-or liquid-operated power apparatus comprises 2 pipelines, 2 the first containers and 2 second containers, and the first container and second container are respectively by a pipeline fluid connection; The first horse head is connected with first piston pump by steel wire; First first container is connected with source of compressed air by solenoid directional control valve respectively with second second container; Second the first container is connected by two selector valves with first second container.

6. pneumatic fluid power slide beam water elevator according to claim 5, is characterized in that, also comprise the second reciprocating pump, the second end of walking beam is also provided with the second horse head, and the second horse head is connected with the second reciprocating pump by steel wire.

7. pneumatic fluid power slide beam water elevator according to claim 6, is characterized in that, reciprocating pump comprises the pump housing, piston and pull bar, and wherein, the central authorities of piston are connected with pull bar, and pull bar is for being connected with steel wire.

8. according to the arbitrary described pneumatic fluid power slide beam water elevator of claim 5-7, it is characterized in that, steel wire is connected with reciprocating pump by pulley.

9. the pneumatic fluid power slide beam of a wind-light-electricity complementary water pumping system, it comprises gas making device and Pneumatic Liquid power slide beam water elevator, wherein, gas making device can be produced pressurized air by wind energy, solar energy and/or electricity, and pressurized air is offered to pneumatic fluid power slide beam water elevator, described hydrodynamic power slide beam water elevator is the arbitrary described water elevator of claim 1-8.

10. the pneumatic fluid power slide beam of wind-light-electricity complementary according to claim 9 water pumping system, also comprises pneumatic hydraulic potential electricity generating device, and described pneumatic hydraulic potential electricity generating device also utilizes pressurized air to generate electricity.